Population Ecology

, Volume 55, Issue 3, pp 405–415

Birth-year and current-year influences on survival and recruitment rates of female Weddell seals


    • Department of EcologyMontana State University
    • The Pennsylvania State University
  • Jay J. Rotella
    • Department of EcologyMontana State University
  • Robert A. Garrott
    • Department of EcologyMontana State University
Original article

DOI: 10.1007/s10144-013-0379-0

Cite this article as:
Stauffer, G.E., Rotella, J.J. & Garrott, R.A. Popul Ecol (2013) 55: 405. doi:10.1007/s10144-013-0379-0


In long-lived species, juvenile survival typically is lower and more variable than adult survival, and modeling such variation is important for understanding population dynamics. Variability in juvenile survival can be related to birth- or current-year influences, and the birth-year influences can be transient, persistent, or intermediate in duration. We used multi-state models and data collected from 5,459 known-aged prebreeder female Weddell seals (Leptonychotes weddellii Lesson) tagged in Erebus Bay, Antarctica from 1980–2007 to evaluate the duration of potential birth-year influences on survival rates and the importance of birth- and current-year influences on survival and recruitment rates. Survival rates differed for each birth cohort and were positively related to current-year winter sea-ice conditions. The estimated duration of birth-cohort effects on survival was intermediate (6 years) rather than transient (2 years) or permanent. Estimated survivorship from birth to 6 years of age varied among cohorts from 0.13 (SE = 0.04) to 0.42 (SE = 0.06), and averaged 0.25 (SE = 0.02). Recruitment rates (probability of transitioning from prebreeder to breeder state) varied annually but apparently were not related to birth-year conditions. Our results provide evidence that birth- and current-year conditions act in combination to influence survival. Although for many long-lived species the influences of either birth- or current-year conditions on survival are well-studied, we suggest that modeling survival rates as a function of birth- and current-year influences simultaneously could lead to better understanding of survival and improved stochastic models to project population dynamics.


Capture-mark-recaptureEnvironmental variabilityMarine mammalMcMurdo SoundPinnipedSouthern Ocean

Copyright information

© The Society of Population Ecology and Springer Japan 2013